Punching and eyeleting machine



Aug. 15, 1950 G. HAZELTON ET AL PUNCHING AND EYELETING MACHINE 5 Sheeis-Sheet 1 Filed Dec. 14, 1948 [nven tam George hazelzon Wzllz'am A.Barker fivs'org W Gibson Aug. 15, 1950 G. HAZELTON ETAL PUNCHING AND EYELETING MACHINE 5 Sheets-Sheet 2 Filed Dec. 14,- 1948 HH I -I HH. IIILI vanda In venfam George Hazelian MZbzm A. Barker George Wfiibson I I I 5, 1950 G. HA'ZELTON ETI'IAL 2,518,545

PUNCHING AND EYELETING MACHINE Filed Dec. 14, 1948 5 Sheets-Sheet 4 e \Alz'llzam, ABaz-ker George [4/ Gibson 2%" A 1950v G. HAZELTON ETAL 2,518.545

" mmcnmc AND EYELETING MACHINE Filed Dec. 14, 1948 5 Sheets-Sheet 5 ge hazeli'on lx/zlliam ABar-ker- Georg: WGib Patented Aug. 15, 51950 I UNITED PUNCHING AND EYELETIN G MACHINE George Hazelton, William Arthur Barker, and

' George William Gibson, Leicester, England, as-

signors to United Shoe Machinery Corporation, Flemington, N. J a corporation of New Jersey Application December 14, 1948, Serial No. 65,182

In Great Britain December 27, 1947 7 Claims. (01. 213-45) This invention relates to power-operated machines for installing barrel-type fasteners and more particularly the invention aims to provide an improved eyelet-setting machine for enabling its operator to insert an eyelet precisely at a selected or designated locality of a work piece. It will be understood, however, that the invention is not necessarily limited to eyeletting machines nor to machines for operating upon any particular type of workpiece, such as a shoe upper, since the word eyelet as hereinafter used refers to barrel-type fastenersgenerally, and includes, for instancasuch examples as lacing hooks or grommets, as well as eyelets.

For best results, whether intended to serve as fasteners, pivots, decorations, hole reinforcements, orv tofulfill any combination of these jobs, an eyelet must be properly set and moreover the setting must occur where the work requires it. Mislocation of punching or setting makes for defective workmanship especially since the fastener can seldom be relocated to correct an installation error without damaging, or even ruining the work piece. As presently constituted, eyeleting machines will ordinarilyinsert eyelets automatically and approximately at the points specified to receive them. Where the eyelets are to be unevenly spaced and a high degree of accuracy in placing each. eyelet is important, preliminary manual positioning of the work piece and the driven working members in correct relation to each other has been found especially advantageous. The invention is accordingly herein illustrated as embodied in a machine for precisely inserting eyelets, one at a time, in a work piece held against displacement, the machine having in its novel organization elements which are in part manually operable to enhance safety, accuracy, and efiect ive performance of power-driven parts. In general, the arrangement includes a pair of cooperatively related punching members movable sidewise with a pair of cooperatively-related eyelet-setting members, said pairs beingalternately driven along a selected line of operation to punch a hole and then clinch an eyelet in said hole.

. An object of the invention is to provide in a powered machine improved means for installing an eyelet precisely at a chosen locality of a work piece.

- An important feature of the invention relates to an eyelet-setting machine having manually operable means for initially moving a punching member toward the work piece to facilitate relative positioning of the latter and thereby precisely locate a spot for installing an eyelet, further operation of said manual means subsequently actuating powered punching and clinching mechanism exactly at said spot.

A further feature of the invention consists in improved means for guiding an eyelet into its punched hole, a frictionally controlled spindle associated with one of the eyelet-setting members being thrust through an eyelet in a raceway in consequence of initial manual operation of the punching mechanism. Actuating the manually moved punching member as a guide to the proper locality for punching an eyelet hole in the Work piece thereby serves also to seat an eyelet in coaxial relationto the spindle. When the eyelet has thus been impaled by the spindle and steadied by the delivery end of theraceway during their cooperative sidewise movement of the punched hole, the raceway is deflected without danger of fouling the setting members which are about to be power-operated and the eyelet has then had adequate time to be properly alined with the setting toolbefore further depression of the spindle urges the eyelet into the punched hole.

These and other features of the invention, to-

getherwith novel arrangements of parts, will be best understood by considering the illustrative machine described below and with reference to the accompanying drawings, in which:

Fig. 1 is-a left handside elevation of an eyeleting machine in which the invention is embodied, the machine being shown partly in section, a portion being broken away, and the work table. and raceway being omitted for clarity;

Fig. 2 is a plan View of the same machine with a portion broken away; 7

Fig. 3 is a View in front elevation, the work table and raceway included;

Fig. 4 is a view in side elevation and partly in section of toggle actuated punching members and associated driving mechanism shown in Fig. 1;

Fig. 5 is a View in side elevation of the toggle actuated eyelet-setting mechanism and the eyelet picking spindle;

Fig. 6 is a detail view in elevation of mechanism for actuating the spindle;

Fig. 7 is an enlarged side elevation of clutch mechanism seen in Fig. 1; and

Fig. 8 is a detail in plan of operating parts of the clutch of Fig. 7.

.The illustrative machine comprises a hollow, open front main frame Ill in which trunnions I2 (Figs.'1 and 2) are journaled to establish a vertical axis for the angular movements of a carrier l4. The carrier 14 includes forwardly extending respectively, (Fig. 4) are pivotallyinounted ontheir individual bearing pins -30, 32 which are respectively carried by the arms I6 and l8 A plunger 34 to which a tubuiar uncri 36 is atfixed is mounted for vertical movement vvithin a bore in the arm I6 and is engageable withan end of the lever 26. Similarly, a plun g er 3B,- to which a punch block 40 is afiixed, is mounted for vertical movement in a bore of the arm I8"-and is engageable with an end of the lever 28. The punch'36 and punch block '40 are alined an'd'their cooperativeengagement with awo'rk piece is ef= fected by pivotal movement of the levers 26 and. 28 in opposite directions about thebearing pins 30, 32'.

A toggle for operating the punch and the punch block is located between the'rear ends of the levers ZE'and 28(Fig. 4). In 'comprisestoggle links '42 and'Mand an intermediate knee-block 46. Movement 'of the latter in one direction is limited by an adjustable stop 41. Hemispherical ends formed on the links have bearings in hemi=- s'pl'reri'cal sockets formed in the levers2'6 and 28 and'in thebl'o'ck 46. These formations permit angular movements of the carrier M about the trunnio'ns I2; also angular'movenients 'of th'e'le- Wars 26 and'28 about their respective fulc'ia 30 and 32; and angular m'cvement'sof tneoperating lever t8'towhich the knee block 46 is aifixe d. The lever 48' is mountedon a fulcrum pin 50: and is pro vided with a' camr-oll 52. A- tension spring 54 keeps the roll incontact with a peripheral -cam surface 560i a rotary ca m (Figs. 1; 4 and 6) by which the punch and punch block are moved to= ward and 'frorneach'oth'er.

As mentioned above. the pair of punching members is movable si'dewise'with 'a pa'ir 'of 'co operatively related eyelet setting members here inafter to be described, the 'si'd'ewi'se movement being effected by swinging of the carrier M as a whole about the tr'unnions' I21 The means -for so turning the carrier I4 and thereby indvinglthe aforesaid pairs of operating members alternately toward'an'd from a common operating axis, des

i'gna'ted 58 'in Fig. 3,'cofnprise's the arm 29' (Figs.

l and 2) and a roll 60 carried thereby for en'- gag'emen't with a peripheral cam surfaCe' BZ-"o f a rotary cam. The roll60 is held'agaiii'st the cam surface "52 by a's'plilig '64 (Fig.-2 and an adju'stable 'StO'p -I36 (Fig. 2) is arranged to be engaged by the carrier 'l' t whereby to arrest the pair of eyelet setting members inaiiriement with the axis 58 and a hole in the work piece rrenwnich the punch 36 has been withdrawn.

Referring flow to Fig. l, all-impel eyelt se fiting die 68 is afiixed to a plunger 76' mounted for vertical movement in a bore in the arm 16. Vertical movement is imparted to the manger; "II! by a lever l2 mountedon afuldriu'n pin M' c'arried by the arm I6. Alowe'rsettingclie'ffli' is affiked to fa plunger 78 "mounted for vertical movement in aborein the arm I8; aria-moveis imparted to this-plunger by a lever 20 mounted n a fulcrum pin 32' earned by the arm-rs; The levers TZfiIld 8U aredperated 'by .4 a toggle mechanism (Fig. 5) similar to that provided for operating the punch 36 and the punch block 40. The mechanism represented in Fig. 5 comprises toggle links 84 and 86, a knee block 88, a lever to which the knee block is aff xed, a rotarycam 92; a cam roll 94- carried by the-lever 9i;-and a-spring 98 by which the cam roll is held against the operating surface of the cam 92. The ends of the toggle links 84, 86 are hemispherical and the bearing surfaces prcviaedrcrthem in the knee block 88 and in the levers I2; 80- arecorrespondingly shaped.

A spring 98' connecting the levers I2, 80, as shown" 5, holds them against the links 84'; 86. similar spring I00 connects the levers 26 28; (Fig. 4-) and holds them against the links 42. M;

Referring again to Figs. 1 and 2, as has been mites, the power operated working elements are cam actuated, the several cams being secured t6; "i'i'dflf liihill ap repriate seil'uefi'e-by,

mad-ii driving shaft- I 02 j'iirfiaied iii-Hubs provided in the frame Ill: Thus, a presser foot I84 is Seeureel'- to; the mwer 'e-fiilof a rod I06 esumes for vertical sliding iii" a b''ss I08 of the 1." e It), the resser fbot beinconvenient1y ed to be lowered to gripthe work against the tame 2 2-. iA-pinfl I'D" aifixe'd to-th-e rod; I06 en-tends through-a slot' in the'bQs's-IM and cobperat'es' w'i'th one arrn (if a -bellcrank H2 piv- "o te'd upon-a stild Hls'e'c-uid t6 the frame 10. A rearwardly extending rod II fi' -is pivotally cennect'e'd lib-the bel-l'cr'ank I mand'tcaiever 'I 18. The latter is pivoted upo 'n a stud I20 "seci nfed t6 the frame" andhas' -'a lowerend eng'ag'eable with a roll I22 (Fig. 1-) 'c'a'i'ri'ed by the above mentioned eyelet setting earn mounted on the shaft 9 21 The lever I18 is intermittently held operative contact with-the roll 1 2 2 by means of a spring Pz'd confined by an upper end of the rod I'fltand-a cap screw 1 2 6 threaded iirthe boss Hi8. During a'revolution of the shaft I32 in direction ind icated by the arrow A of Fig. 1, itwill be seenthat the r011 122 first passes thelev'e'r it} to anew the foot "14' to be lowered by the spring I26 and therea fter lifts the lever "I Iii and 'the'fobtfl lili Means "for rotating a hopper 1 22 to supply eyelets tea raceway 'I 30an'd "for deflecting -the latte cyclically are also powered by the main shaft If which, incidentally, is driven conti'nuously by a belt operatedjpu1ley ltfmou'nted thereon; racewayfl fl is mounted on the frame "I0 (Fig. 3') and is connected thereto by a pivot pin F3' I that enables its tleli very end to swing 's'idewi'se, but the raceway and thearm I6 of the 'tool carr'ier "M are connected by a c upnng member suspended from the arm 'I'Fby a pivot pin F38. ro-llfMI) carried by "the member I36 is normally "held against 'a vertically movable block it! *lo'y at'ens'1"on spring I (Fig. 3) secured-to the carrier it, the block being embedded in a' groovedir'the arm 113 and having'a cammmg surface I4 5"(Fig. 3) by which the roll HI] may 'be"sl'iift'ed"tb the left. The lower portion of the coupling member I'Q'G straddles and embraces-apin 1'46 affixed to the raceway. The block $42 'is carriedup and down by the lever TZ Fig. 5)" t0"W'hi Ch i'tis connected by a link I48, a pivot pin I50 (Figs, 2 and 5) afiixed to the block, and"a"pivot' pin 'ISI affixed tothe lever. The effectof the block 1-42 is to defiectthe delivery end o'f the raceway out of the path of thes'e'ttingldie 6 8 as th'elatter'descends.

a spindle I52 (Figs. 1 and 6):. .The spindle I52 and the die 68 are telescopically related (Fig. 1), the upper portion of the spindle being divided by a diametrically placed kerf- I54 and its half sections slightly spread to maintain pressure against the interior surface of the plunger 10. The friction due to such pressure is enough to support the. spindle butthe latter may be depressed by a finger I56 (Figs. 1, 4 and 6) that projects into the plunger 10 through a slot I51. This finger is carried by the punching lever 26 (Fig. 6) and is connected thereto by a pivot member I58. Upward movement of the finger I56 is limited by a stop pin I59 (Figs. 4 and 6) secured in the lever 26. Consequently, the spindle I52 is thrust through an eyelet in the raceway by the punching mechanism prior to the actuation of the plunger 10, the initial position of the spindle (and normal inoperative position of the machine) bein as represented in Fig. 3 with the spindle slightly above the delivery end of the raceway. Therefore, although the spindle receives its initial downward movement from the finger I56 prior to being shifted sidewise into alinement with a punched hole in the work, it receives a subsequent downward movement after it has been so shifted, its second stage of downward movement being caused by the plunger 10 and the frictional engagement of the spindle therewith. If the hole made in the work by the punch 36 is large enough to receive the lower end of the spindle I52 the latter may descend until it is arrested by the anvil or lower setting die 16. This secondary depression of the spindle occurs simultaneously with depression of the raceway cam block I42, the timin of which advantageously enables the lower end of the spindle to enter the punched hole before the raceway is' retracted from the eyelet then surrounding the spindle.

Provision is made for treadle control of the punching mechanism until the operator decides he. has located a work piece precisely with respect to the fixed axis 58.along which installation is to occur. By means ofa treadle (not shown) connected to a treadle rod I60 (Figs. 1, 3 and 7) conventional clutch mechanism is tripped to drive the main shaft I02 through a single powered revolution during which, as will be seen, an eyelet installation will be completed. The treadle rod I60 is connected to a lever I62 pivoted on a movable stud I64at one end and having its other end yieldingly suspended from the frame against treadle depression by a spring I66. A link I68, likewise pivoted on the stud I64, is pivotally connected to the machine frame by a pin I10. A lever I12, having its rearward end pivotally supported by the pin I10, is also pivotally connected to the lever I62 by a movable stud I14. The forward end of the lever I12 (Fig. 3) extends outside the frame I and is provided with a boss I16 for'receiving a horizontally slidable spring pressed control pin I18- The boss I16 has a diametric slot I80 which may accommodate a transverse pin I82 secured in the pin I10. When the latter is turned to seat the pin I52 within the slot, the control pin I18 is in its inner position, and when the pin I82 is unseated, as shown in Fig. 3, the

7 pin I18 is in its extended or normal position,

these two positions determining operative conditions hereinafter to beexplained. During operations with the control pin in its inner position ail-end 'thereofis inserted. in a bore 119 (Fig. 1)

of the frame I0 to'lock'th'eilink[68.1 The stud I14 pivotally supports alatch I84 (Fig. 7) which is provided with a 1ip.l86 that overlies an end portion of the lever 48. Agtension spring I88 secured to the lever I62 tends to hold the-1ipI86 in pressural engagement with the aforementioned end portion of the lever .48. I

Any suitable type of single revolution clutch may be used to operate the shaft I02, and as the construction and operation of the type shown are well known it will be but briefly described. Referring to Fig. 8, a freely rotatable member I90 is mounted on the shaft I02 adjacent to the con-' tinuously driven pulley I32 also freely rotatable upon the shaft I02. The member I90 has a pulley portion I92 for driving a belt (not shownyto operate a hopper pulley I94. Slidably mounted on: the shaft I02 and within the member I90 is a. sleeve I66 and the member I90 also has an eccen trio bore in which a slidable dOg I91 is mounted; Normally, as in Fig. 8, the dog I91 is urged by a. spring I98 into the path of two dogs 200 aflixed. to the pulley I32 so that the latter and the member I90 are coupled for continuous rotation as a. unit. pressed plunger 202 slidable in a bore of the shaft: I02 may, however, disengage the dogs I 91 and 200 by displacing an extension 204 of the sleeve I96 against the resistance of the spring I98, and the: machine cannot then be operated. A pin 206; secured to the plunger 202 projects into an angu lar slot 208 formed in the shaft I02, one portion. of the slot serving, when the plunger has been. manually pressed inwardly and turned, to releasably retain the pin 206 so that the dogs I96 and 200 are then held out of operative engagement.

A collar 2I0 fixed on the shaft I02 adjacent to the member I60. receives in parallel bores two plungers 252 and 2I4 which are secured to a wedge-shaped beak 216. When the machine is at rest, the beak 2I6 is held by a clutch pin 2 I8 in the position illustrated in Fig. 8. The pin 2m may be withdrawn from the beak by manual means to be described, whereupon the beak and the plungers 2 I 2, 2 I 4 will be moved by a compression spring 220 toward the member I90, the plunger 2I4 making coupling engagement with one of the dogs 222 amxed to the member I90. The collar 2I0 and the shaft I02 will then be driven until the beak 2I6 is again permitted to resume its relative position shown in Fig. 8.

The pin 2 I8 (Fig. 7) is-secured to and actuated by a split lever 224 that is clamped by a bolt 226 to a bearing stud 228 rotatably mounted in bear ings in the frame I0. .An eccentric portion 230 of the stud 228 pivotally supports an arcuate brake shoe 232. to the machineframe and to a hook formed on the lever 224 positions the latter so that the pin" 2 I 9 holds the beak 2 l 6 in its initial position shown.

in Fig. 8 and the brake shoe 232 is applied to "a peripheral brake cam 236 on the collar 2I0. A roll 238 carried by the lever 224 is at this time occupying a depression 246 formed on the brake lever 224. The arm 242 is normally held with its. shoulder in engagement with the lever 224 by a" tension spring 246 secured to the arm 242 and the machine frame.

A single cycle of operation of the machine in its normal condition, i. e., with the control pin I I18 extended as in Fig. 3, will nowbe described.

For safety and convenience a spring;

A tension spring 234 connected Asshomn in that/view; the.v presser. foot-.1 ILME is up and: the. machine is at :restwith the punch 3iiiiand punch: block 40 onthefixed operating axis 58. An operator'will' depress-theztreadle rod IBIl-initi'ally; to cause, in the manner stated; below, a work piece-on the table 22: to be grlppeclby the punch and punch block. If the operator decides these punch members and their operating. axis do. not intersect the work piece exactly where it isdesired to have the eyelet hole located; he will release the treadle and: correctly locate the work piece with respect to the punching memhere; again utilizing the easily visible locality of engagement of the punch 36 with the work as an eyelet hole position indicator. Depressing therod I-Iiil pivots the-lever I62 about the stud I 64, andthe latch I84 is thereby lowered causing its lip IBG-to engage and swing thelever 38 counterclockwise (as seen in Fig. 7) about its fulcrumpin 50. Resultant toggle straightening at'the knee block 46- pivots the levers 2B, 28-to operate the punching members along the axis 58, downward movement of the lever I62, and

the latch Hi4 being arrested by stoppage of angular movement of the lever 48 when said membars have gripped the work. The lever I62 cannot then be swung further downward about the stud I64- and continued'downward pull on the treadle rod I60 thereafter swings the lever I52 about the stud I14 as fulcrum; Thus, as a consequence'ofthis continued pull, the arm 2 32 is.

moved upwardly to trip the clutch mechanism and start the single powered revolution of the shaft I02 by the, release of the brake shoe from the brake cam 236 and the withdrawal of. the pin 218 to permit the plunger 2.I A; to be prcj'ected by the spring 220 into the path ofone of the studs 222, as referred to above.

During the early part of the power cycle rotation of the cam 92, fixed to the shaft I02; will move the roller I22. out from under the lever M3 (Fig.1) and the presser foot I04 will be lowered by the spring I24 to grip the 'work piece to hold it"against displacement and, when the punching and'setting has been completed, the eyelet set-; ting cam 92 will act via said'roll I22" and the lever H8 to raise the presser foot for release of the work and subsequent eyeleting.

As the cycle commences, the punch operating cam56 engages a roll 2.48 carried by the latch I84 to pivot the latter counterclockwise, as

viewed in Fig. 7, about its fulcrum m1 therebydisengaging the latch lip I861 from the lever 48,. As, a result, the movements of'theypunch. 3 5- and.

the punch block 40 toward one another and, then.

apart are thereafter determined by engagement, of the roll 52 with the punch operating cam 55.. It, is to be noted '(Figs. 4 and 6) that. as these punching members. approach one another the fin er I55 is depressing the spindle I52Jdownwardly, as aforesaid, to thrustthe latter through the endmost eyelet in the raceway 1.30. When the eyelet has been so impaled and the punching members are again. separated from each other to clear the punched hole, the carrier I4 is shifted angularly (to the right in Fig. 3) about the trunnions I2so as. to remove the, punch 36 and punch block 40. from, and aline the setting tools with, the axis 58. This shift is. effected by theroll 69 and cooperating cam 62 (Fig. 2), its extent being,

sertionv and setting occurs exactly on --t,heaxis.:58-.;

The delivery endof thevraceway L30, is; shifted with thez. settingtools, an 'eyeletithereby being steadied onthe spindle even though their -engaging circumferences may notalways exactly fit one another, and positioned just above the punched hole; At' this. stage in the cycle the spindle I52 receives it second downwardthrust, this; time from frictional engagement with the plunger IE! as actuated by the cam 92', the plungers it and 18 being toggle actuated by means previously referred to and seen in Figs. I and; 5; to effect cooperative setting by. the dies 63 and I6- along the axis 58. The lower end of the spindle I52 will have just entered the punched hole. to seatan eyelet therein when the raceway cam block I42 also being lowered by the lever i2 (Fig;'5:) acts. to deflect the raceway and thereby clear the operating path of the dies 68- and "i6 which cooperate to clinch the eyelet. The spindle may remain stationary asthe die 68 completes its downward movement but is lifted frictionally by the latter. Further rotation of the cam 92 allows the roll' 94'to rise, the spring 93 breaking. the toggle at the knee block 88 to separate the dies.

Toward the end, of the single revolution the cam 56 contacts the arm 242' to dislodge its shoulderportion from the lever 24 3. The spring 23%- thenurges the roll 238 to drop into the cam depression 24 ,0, in which position the clutch pin 218 comes into the path of the beak ZIfi and the brake shoe 232 is applied to the cam 236. Through a small; angle of rotation the clutch pin progressively engages an inclined face of the beak 216 to urge the latter away from themember Hill. The plunger 2M is therebyuncoupled from the dog 222 so that the shaft Iii-2 isbrought to rest and the cycle completed. Upon release of the treadle the machine parts will bereturned to their respective initial positions by the tension of their associated springs and the machine is ready for installation of the next eyelet.

If the control pin I13 be inserted inthe bore [7:9, the pin, IS2 being seatedin the slot I80, the lever I12 cannot then be swung about the pin l liil'anclthe illustrative machine is conditionedfor installing eyelets which need not be precisely located in a work piece. The stud IM-hasthus been given a fixed position and is lower than formerly so that the latch I84 is free from engagement with the arm &8. Depression of the rod IEtswings the lever I62 about the stud IN to raise the arm- 2G2 and thus apply power as was-described above, but the punch operating cam 58 cannot in this operative condition lower the punch 36 until the clutch has been tripped. The operator 'may accordin ly trip the clutch mechanism immediately by his treadlemotion and the cycle commences with power; operation of the punching mechanism rather than with precise preliminary manual location of the punching members.

Having thusdescribed our invention, what we. claim as new anddesire to secure by Letters Patent of the United States is:

1. Aneyelet setting machine comprising a pair of cooperatively related punching members, means for holding a workpiece stationary between sa-id members, a raceway for supplying eyelets, a pair of cooperatively related eyelet setting members one of which is arranged to cooperate with said raceway and has a frictionally controlled spindle for picking an eyelet therefrom, manually operable-means for initially moving one of said punching members in aline of operation toward the workpiece, mechanism actuated by said means for thrusting said spindle through an eyelet in the raceway, a clutch actuable'by said means after the initial movement of said punching member, and power operated means arranged alternately to drive said pairs of members in the line of operation, said power operated means being driven by said clutch.

2. An eyelet setting machine comprising a work supporting table, a pair of cooperatively related punching members, a pair of cooperatively related eyelet setting tools, a presser foot overlying the table to hold a workpiece stationary between the members and between the tools, a carrier in which said pairs are arranged side by side, manually operable means for depressing one punching member to a level near the upper surface of the table, a raceway for supplying eyelets, a frictionally controlled spindle telescopically related to one of the tools and arranged to cooperate with the raceway, mechanism actuated by said manually operable means to thrust said spindle through an eyelet in the raceway, a clutch controlled by said means to be tripped thereby in consequence of depressing said punching member lower than said level, power actuated means driven by said clutch to move said carrier to and fro to place said pairs of members and tools alternately in a line of operation adjacent to said presser foot, power actuated means arranged to operate said punching members in said line, and power actuated means arranged to operate said eyelet setting tools in said line.

3. A machine for installing fasteners comprising a table for holding a workpiece stationary, a punch and an individual fastener setting tool above the table, a punch block and a fastener setting die below the table, said punch and punch block being jointly movable toward one another to determine a locality for installing a fastener, a deflectable raceway, a spindle telescopically mounted in said tool and arranged to cooperate with said raceway, manually operable means arranged to depress the punch to a level above said locality, mechanism actuated by said means to thrust the spindle through the fastener in the raceway, a clutch controlled by said means to be tripped in consequence of depressing the punch below said level, and power actuated means driven by said clutch for alternately operating the setting tools and the punch at said locality. 4. An eyelet setting machine comprising a pair of cooperatively related punching members, a

pair of cooperatively related eyelet setting members, said pairs being respectively mounted for toggle operation and arranged side by side, a stationary work support and a cooperatively related presser foot to hold a workpiece between the punching members, a raceway for supplying eyelets and arranged to cooperate with one of said eyelet setting members, manually actuated means for initially moving said punching members along a line of operation adjacent to said presser foot, a clutch controlled by said means, power operated means driven by said clutch for thereafter alternately moving said pairs of members along said line of operation, and mechanism actuated by said power operated means to operate the presser foot during the movement of said members.

5. An eyelet setting machine comprising a raceway for supplying eyelets, an eyelet setting tool arranged to cooperate with said raceway, said tool having a frictionally controlled spindle for picking an eyelet from the raceway, manually operable means arranged to thrust said spindle through an eyelet in the raceway, a clutch controlled by said means to be tripped thereby, and power operated means for operating said tool, said power operated means being driven by said clutch.

6. An eyelet setting machine comprising a frame, a pair of cooperatively related punching members and a pair of cooperatively related eyelet setting members mounted side by side on said frame for swinging in unison, a spindle telescopically related to one of said eyelet setting members and supported for frictional engagement therewith, a raceway pivotally mounted on the frame and normally having its delivery end in alinement with the spindle, power operated means for moving said punching members toward and from each other to punch a hole in an interposed work piece, mechanism actuated by the punching movement of one of said punching members for initially thrusting the spindle through an eyelet in the raceway, mechanism operable by said means for shifting said pairs of members and the delivery end of the raceway sidewise whereby the latter, said eyelet setting members and said spindle are alined with said punched hole, power operated mechanism for thereafter moving the spindle and subsequently said eyelet setting members into and from the punched hole, and means actuated by said power operated mechanism for retracting the raceway in the interval between entry of said spindle and eyelet setting members in said hole.

'7. An eyelet setting machine comprising a pivotally mounted tool carrier, oppositely disposed punching and eyelet setting tools carried thereby side by side, a spindle frictionally mounted in one of said eyelet setting tools and telescopically movable in relation thereto, a raceway normally arranged to deliver and support an eyelet in the path of said spindle, power means for operating said punching tools to punch a hole in a stationary work piece, elements actuated by said means initially to thrust the spindle into an eyelet on the raceway, mechanism for shifting said tool carrier sidewise to aline the setting tools, spindle and raceway delivery end with the punched hole, power mechanism for operating the eyelet setting tools, said power mechanism including a member effective further to thrust the spindle through the eyelet and into the punched hole, and a cam actuated by said firstmentioned mechanism for retracting the raceway from said spindle, said cam being adapted to withdraw raceway support of an eyelet after the latter has been positioned for setting in said hole.

GEORGE HAZELTON. WILLIAM ARTHUR BARKER. GEORGE WILLIAM GIBSON.

No references cited. 

